Home > Products > Plasma Cleaning Systems

Plasma Cleaning Systems

YES-G1000 Specs (4 powered shelves)

Plasma is an ionized gas capable of conducting electricity and absorbing energy from an electrical supply. Typically, plasma is created in a low-pressure environment. Plasma cleaning systems are an effective way to remove small amounts of contaminants from a substrate surface. (For removing thick photoresist or polyimide layers, see YES Plasma Strip Systems).

The use of plasma is an effective way to clean without using hazardous solvents. When a gas absorbs electrical energy, its temperature increases causing the ions to vibrate faster and “scrub” a surface. Power density and capability are the same in both the YES-G1000 and YES-G500; capacity is the only difference.

Typical Applications: Wire bond surface preparation Removing contaminants (flux) or sterilizing a surface Promoting adhesion between two surfaces Controlling surface tension to achieve either a hydrophobic or hydrophilic surface Increasing biocompatibility Improving polymer performance through cross-linking to decrease friction that wears out devices

In semiconductor processing, plasma cleaning is commonly used to prepare a wafer surface prior to wire bonding. Removing contamination (flux) strengthens the bond adhesion, which helps extend device reliability and longevity.

In biomedical applications, plasma cleaning is useful for achieving compatibility between synthetic biomaterials and natural tissues. Surface modification minimizes adverse reactions such as inflammation, infection, and thrombosis formation.

Benefits of Low Frequency

Plasma processing equipment commonly uses RF to generate gas plasma. A variety of parameters can affect the physical characteristics of plasma and subsequently affect the surface chemistry obtained by plasma modification.  In order to achieve uniform, superior results, Yield Engineering Systems recommends low frequency plasma (40-50 kHz) over high frequency plasma (13.56 MHz or 2.54 GHz) for the following reasons:

• Higher Ion Density. Low frequency plasma provides more energy per square inch than high frequency cleaning. While this may seem counterintuitive, high frequency plasma cleaning systems actually lose considerable energy through heat loss. Energy loss with a 13.56 MHz system is up to 850 times greater than with a 40 kHz system.
• Increased Efficiency. The efficiency of a plasma system is the ratio of the energy used in producing the plasma vs. the energy dissipated in losses such as heat. A low frequency plasma system acts like a perfect capacitor with infinite capacitive impedance, or zero current drain when in standby mode. Current applied across the capacitive pair (electrodes) causes the gas to ionize, and the impedance is bridged causing current flow (plasma) between the electrodes.
• Better Uniformity. Low frequency systems have no "shadowing," which occurs when samples on upper shelves form a mask that prev